Application of Boron Oxide as a Protective Surface Treatment to Decrease the Air Reactivity of Carbon Anodes

Application of Boron Oxide as a Protective Surface Treatment to Decrease the Air Reactivity of Carbon Anodes

The oxidation of a carbon anode with air and CO2 occurs during the electrolysis of alumina in Hall-Héroult cells, resulting in a significant overconsumption of carbon and dusting. Boron is well known to decrease the rate of this reaction for graphite. In this work, the application of boron oxide has...

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Veröffentlicht in:Metals (Basel ) 2017-03, Vol.7 (3), p.79
Hauptverfasser: Ishak, Ramzi, Picard, Donald, Laroche, Gaétan, Ziegler, Donald, Alamdari, Houshang
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum oxide
anode air reactivity
Anode effect
anode impregnation coating
anode sample gasification
Anodic protection
Boron
boron oxide anode coating
Boron oxides
Burning rate
Carbon
Carbon dioxide
Coating effects
computed tomography (CT)
Electrolysis
Electrolytic cells
Gasification
Measurement methods
Oxidation
Protective coatings
Surface treatment
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Zusammenfassung:The oxidation of a carbon anode with air and CO2 occurs during the electrolysis of alumina in Hall-Héroult cells, resulting in a significant overconsumption of carbon and dusting. Boron is well known to decrease the rate of this reaction for graphite. In this work, the application of boron oxide has been investigated to evaluate its inhibition effect on the air oxidation reaction, and to provide an effective protection for anodes. Different methods of impregnation coating have been explored. Impregnated anode samples were gasified under air at 525 °C according to the standard measurement methods. X-ray tomography was used to obtain the microstructural information of the samples before and after air-burning tests. The impregnated samples showed a very low oxidation reaction rate and dust generation.
ISSN:2075-4701
2075-4701
DOI:10.3390/met7030079